noun the radiant energy emitted by a surface per unit area in a given direction
In environmental science, irradiance is used to measure the amount of solar radiation reaching the Earth's surface, which impacts various ecological processes.
In optics, irradiance is important in the study of light intensity and the behavior of light waves.
In astronomy, irradiance is used to describe the amount of radiant energy received by a surface from a celestial source.
In physics, irradiance refers to the power of electromagnetic radiation per unit area, measured in watts per square meter.
In the field of solar energy, irradiance is a key parameter in determining the amount of solar radiation that reaches a solar panel.
In scientific writing, irradiance may be discussed in relation to topics such as solar energy or medical imaging.
Photographers may use the concept of irradiance when discussing lighting setups and exposure settings.
Engineers working in fields such as optics or renewable energy may calculate and analyze irradiance levels for various applications.
Environmental scientists may study irradiance as part of their research on climate change, ecosystems, or solar radiation.
Astronomers often measure irradiance from celestial bodies to study their properties and behavior.
Biomedical researchers may use irradiance measurements in experiments involving light-based therapies or imaging techniques.
Architects may consider irradiance levels when designing buildings to optimize natural lighting and energy efficiency.
Professionals installing solar panels need to understand irradiance levels to ensure optimal performance and energy production.
Meteorologists may analyze irradiance data to study weather patterns, climate trends, and the impact of solar radiation on the Earth's atmosphere.
Medical physicists use irradiance measurements in radiation therapy treatments and imaging technologies to ensure accurate dosing and patient safety.